PURPOSE: The purpose of this study was to determine whether suture could be coated with recombinant human platelet-derived growth factor BB (rhPDGF-BB) and whether the coated suture would improve histologic scores and biomechanical strength of sheep rotator cuff repairs. METHODS: FiberWire sutures (Arthrex, Naples, FL) were dip coated in a collagen-rhPDGF-BB solution. Coating was confirmed by use of enzyme-linked immunosorbent assay. Rotator cuff tears were created in 18 sheep. The tendons were wrapped in Gortex (Gore Medical, Flagstaff, AZ) and allowed to scar for 2 weeks. Tendons were then repaired to bone by use of standard anchors loaded with either rhPDGF-BB-coated sutures or uncoated sutures. Gross examination, histologic analysis, and biomechanical testing were performed 6 weeks after repair. RESULTS: Enzyme-linked immunosorbent assay confirmed successful loading of the growth factor onto the sutures. Gross examination showed well-healed tendon-to-bone interfaces in both rhPDGF-BB-augmented repairs and controls. Histologic analysis using a semiquantitative rating scale showed improved tendon-to-bone healing in the rhPDGF-BB-augmented repairs. There was no significant difference in the ultimate load to failure of rhPDGF-BB-augmented rotator cuff repairs compared with standard suture repairs at 6 weeks after repair. CONCLUSIONS: We were able to coat No. 2 FiberWire with rhPDGF-BB. At short-term follow-up, rhPDGF-BB-coated sutures enhanced histologic scores of sheep rotator cuff repairs; however, ultimate load to failure was equivalent to standard suture repairs. CLINICAL RELEVANCE: rhPDGF-BB-coated sutures seem to produce a more histologically normal tendon insertion.
PURPOSE: The purpose of this study was to determine whether suture could be coated with recombinant human platelet-derived growth factor BB (rhPDGF-BB) and whether the coated suture would improve histologic scores and biomechanical strength of sheep rotator cuff repairs. METHODS: FiberWire sutures (Arthrex, Naples, FL) were dip coated in a collagen-rhPDGF-BB solution. Coating was confirmed by use of enzyme-linked immunosorbent assay. Rotator cuff tears were created in 18 sheep. The tendons were wrapped in Gortex (Gore Medical, Flagstaff, AZ) and allowed to scar for 2 weeks. Tendons were then repaired to bone by use of standard anchors loaded with either rhPDGF-BB-coated sutures or uncoated sutures. Gross examination, histologic analysis, and biomechanical testing were performed 6 weeks after repair. RESULTS: Enzyme-linked immunosorbent assay confirmed successful loading of the growth factor onto the sutures. Gross examination showed well-healed tendon-to-bone interfaces in both rhPDGF-BB-augmented repairs and controls. Histologic analysis using a semiquantitative rating scale showed improved tendon-to-bone healing in the rhPDGF-BB-augmented repairs. There was no significant difference in the ultimate load to failure of rhPDGF-BB-augmented rotator cuff repairs compared with standard suture repairs at 6 weeks after repair. CONCLUSIONS: We were able to coat No. 2 FiberWire with rhPDGF-BB. At short-term follow-up, rhPDGF-BB-coated sutures enhanced histologic scores of sheep rotator cuff repairs; however, ultimate load to failure was equivalent to standard suture repairs. CLINICAL RELEVANCE: rhPDGF-BB-coated sutures seem to produce a more histologically normal tendon insertion.
Authors: John Apostolakos; Thomas Js Durant; Corey R Dwyer; Ryan P Russell; Jeffrey H Weinreb; Farhang Alaee; Knut Beitzel; Mary Beth McCarthy; Mark P Cote; Augustus D Mazzocca Journal: Muscles Ligaments Tendons J Date: 2014-11-17
Authors: Sandeep Mannava; Johannes F Plate; Christopher J Tuohy; Thorsten M Seyler; Patrick W Whitlock; Walton W Curl; Thomas L Smith; Katherine R Saul Journal: Knee Surg Sports Traumatol Arthrosc Date: 2012-07-29 Impact factor: 4.342
Authors: Wei Lee Lim; Ling Ling Liau; Min Hwei Ng; Shiplu Roy Chowdhury; Jia Xian Law Journal: Tissue Eng Regen Med Date: 2019-06-26 Impact factor: 4.169